4.7 Article

Factors affecting the durability of dimethyl dithiocarbamate-stabilized air pollution control (APC) residues derived from municipal solid waste incineration

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JOURNAL OF ENVIRONMENTAL MANAGEMENT
卷 345, 期 -, 页码 -

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ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2023.118778

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Air pollution control residue; Municipal solid waste incineration; Sodium dimethyl dithiocarbamate; Heavy metal; Stabilization

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This study aimed to evaluate the durability of Sodium dimethyl dithiocarbamate (SDD)-stabilized air pollution control (APC) residues and determine the relationship between heavy metal leaching and environmental factors. The results showed that acidic and aerated conditions and temperatures above 40 degrees C accelerated SDD decomposition and reduced the durability of SDD-stabilized APC residues. The decline in durability was attributed to acid hydrolysis, thermal decomposition, and oxidative damage of SDD, leading to the breakage of the chelated sulfur-metal bond.
Sodium dimethyl dithiocarbamate (SDD) is widely used for stabilizing heavy metals to minimize pollution from air pollution control (APC) residues derived from municipal solid waste incineration. However, the effect of environmental conditions on heavy metal leaching from SDD-stabilized APC residues remains unknown. Therefore, this study aimed to evaluate the durability of SDD-stabilized APC residues and determine the relationship between heavy metal leaching and environmental factors, including pH, temperature, and oxygen. The results revealed that accelerated SDD decomposition and the decline in durability of SDD-stabilized APC residues were caused by acidic and aerated conditions and temperatures above 40 degrees C. A decrease in pH from 12.25 to 4.69 increased the Cd and Pb concentrations in SDD-stabilized APC residue leachate from below detection (0.002 mg/ L) to 1.32 mg/L and 0.04 mg/L to 3.79 mg/L, respectively. Heating at 100 degrees C for 2 d increased the Cd and Pb concentrations from below detection (0.002 mg/L and 0.01 mg/L) to 2.96 mg/L and 0.47 mg/L, respectively. Aeration for 5 d increased the Cd and Pb concentrations from below detection to 0.09 mg/L and 0.49 mg/L, respectively. The decline in durability was attributed to acid hydrolysis, thermal decomposition, and oxidative damage of SDD, resulting in breakage of the chelated sulfur-metal bond, which was confirmed by the decrease in the oxidizable fraction of heavy metals and the SDD content. This study improves the understanding of the factors contributing to the decline in durability of heavy metals in SDD-stabilized APC residues, which is important for ensuring the long-term stabilization and environmental safety of these residues.

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